贵州猫跳河流域土地利用变化和土壤侵蚀(英文)   总被引：4，自引：2，他引：2  

许月卿  罗鼎  彭建 《地理学报(英文版)》2011,21(6):1138-1152

Due to the extremely poor soil cover, a low soil-forming rate, and inappropriate intensive land use, soil erosion is a serious problem in Guizhou Province, which is located in the centre of the karst areas of Southwest China. In order to bring soil erosion under control and restore environment, the Chinese Government has initiated a serious of ecological rehabilitation projects such as the Grain-for-Green Programme and Natural Forest Protection Program and brought about tremendous influences on land-use change and soil erosion in Guizhou Province. This paper explored the relationship between land use and soil erosion in the Maotiao River watershed, a typical agricultural area with severe soil erosion in central Guizhou Province. In this study, we analyzed the spatio-temporal dynamic change of land-use type in Maotiao River watershed from 1973 to 2007 using Landsat MSS image in 1973, Landsat TM data in 1990 and 2007. Soil erosion change characteristics from 1973 to 2007, and soil loss among different land-use types were examined by integrating the Revised Universal Soil Loss Equation (RUSLE) with a GIS environment. The results indicate that changes in land use within the watershed have significantly affected soil erosion. From 1973 to 1990, dry farmland and rocky desertified land significantly increased. In contrast, shrubby land, other forestland and grassland significantly decreased, which caused accelerated soil erosion in the study area. This trend was reversed from 1990 to 2007 with an increased area of land-use types for ecological use owing to the implementation of environmental protection programs. Soil erosion also significantly varied among land-use types. Erosion was most serious in dry farmland and the lightest in paddy field. Dry farmland with a gradient of 6°-25° was the major contributor to soil erosion, and conservation practices should be taken in these areas. The results of this study provide useful information for decision makers and planners to take sustainable land use management and soil conservation measures in the area.  相似文献   

The effect of environmental factors on spatial variability in land use change in the high-sediment region of China’s Loess Plateau     

Ya Luo  Shengtian Yang  Changsen Zhao  Xiaoyan Liu  Changming Liu  Linna Wu  Haigen Zhao  Yichi Zhang 《地理学报(英文版)》2014,24(5):802-814

In areas with topographic heterogeneity, land use change is spatially variable and influenced by climate, soil properties, and topography. To better understand this variability in the high-sediment region of the Loess Plateau in which soil loss is most severe and sediment diameter is larger than in other regions of the plateau, this study builds some indicators to identify the characteristics of land use change and then analyze the spatial variability as it is affected by climate, soil property, and topography. We build two indicators, a land use change intensity index and a vegetation change index, to characterize the intensity of land use change, and the degree of vegetation restoration, respectively. Based on a subsection mean method, the two indicators are then used to assess the spatial variability of land use change affected by climatic, edaphic, and topographic elements. The results indicate that： 1） Land use changed significantly in the period 1998-2010. The total area experiencing land use change was 42,302 km2, accounting for 22.57%of the study area. High-coverage grassland, other woodland, and forest increased significantly, while low-coverage grassland and farmland decreased in 2010 compared with 1998.2） Land use change occurred primarily west of the Yellow River, between 35 and 38 degrees north latitude. The four transformation types, including （a） low-coverage grassland to medium-coverage grassland, （b） medium-coverage grassland to high-coverage grassland, （c） farmland to other woodland, and （d） farmland to medium-coverage grassland, were the primary types of land use change, together constituting 60% of the area experiencing land use change. 3） The spatial variability of land use change was significantly affected by properties of dryness/wetness, soil conditions and slope gradient. In general, land use changed dramatically in semi-arid regions, remained relatively stable in arid regions, changed significantly in clay-rich soil, remained relatively stable in clay-poor soil, changed dramatically in steeper slopes, and remained relatively stable in tablelands and low-lying regions. The increase in vegetation coincided with increasing changes in land use for each physical element. These findings allow for an evaluation of the effect of the Grain to Green Program, and are applicable to the design of soil and water conservation projects on the Loess Plateau of China.  相似文献   

黄土高原多沙区环境因子对土地利用变化空间异质性的影响(英文)     

罗娅  杨胜天  赵长森  刘晓燕  刘昌明  吴琳娜  赵海根  张亦弛 《地理学报(英文版)》2014,(5)

In areas with topographic heterogeneity, land use change is spatially variable and influenced by climate, soil properties, and topography. To better understand this variability in the high-sediment region of the Loess Plateau in which soil loss is most severe and sediment diameter is larger than in other regions of the plateau, this study builds some indicators to identify the characteristics of land use change and then analyze the spatial variability as it is affected by climate, soil property, and topography. We build two indicators, a land use change intensity index and a vegetation change index, to characterize the intensity of land use change, and the degree of vegetation restoration, respectively. Based on a subsection mean method, the two indicators are then used to assess the spatial variability of land use change affected by climatic, edaphic, and topographic elements. The results indicate that: 1) Land use changed significantly in the period 1998–2010. The total area experiencing land use change was 42,302 km2, accounting for 22.57%of the study area. High-coverage grassland, other woodland, and forest increased significantly, while low-coverage grassland and farmland decreased in 2010 compared with 1998. 2) Land use change occurred primarily west of the Yellow River, between 35 and 38 degrees north latitude. The four transformation types, including(a) low-coverage grassland to medium-coverage grassland,(b) medium-coverage grassland to high-coverage grassland,(c) farmland to other woodland, and(d) farmland to medium-coverage grassland, were the primary types of land use change, together constituting 60% of the area experiencing land use change. 3) The spatial variability of land use change was significantly affected by properties of dryness/wetness, soil conditions and slope gradient. In general, land use changed dramatically in semi-arid regions, remained relativelystable in arid regions, changed significantly in clay-rich soil, remained relatively stable in clay-poor soil, changed dramatically in steeper slopes, and remained relatively stable in tablelands and low-lying regions. The increase in vegetation coincided with increasing changes in land use for each physical element. These findings allow for an evaluation of the effect of the Grain to Green Program, and are applicable to the design of soil and water conservation projects on the Loess Plateau of China.  相似文献   

1990–2010年中国耕地变化对粮食生产潜力的影响分析(英文)     

刘洛  徐新良  刘纪远  陈曦  宁佳 《地理学报(英文版)》2015,(1):19-34

The quantity and spatial pattern of farmland has changed in China, which has led to a major change in the production potential under the influence of the national project of ecological environmental protection and rapid economic growth during 1990–2010. In this study, the production potential in China was calculated based on meteorological, terrain elevation, soil and land-use data from 1990, 2000 and 2010 using the Global Agro-ecological Zones model. Then, changes in the production potential in response to farmland changes from 1990 to 2010 were subsequently analyzed. The main conclusions were the following. First, the total production potential was 1.055 billion tons in China in 2010. Moreover, the average production potential was 7614 kg/ha and showed tremendous heterogeneity in spatial pattern. Total production in eastern China was high, whereas that in northwestern China was low. The regions with high per unit production potential were mainly distributed over southern China and the middle and lower reaches of the Yangtze River. Second, the obvious spatiotemporal heterogeneity in farmland changes from 1990 to 2010 had a significant influence on the production potential in China. The total production potential decreased in southern China and increased in northern China. Furthermore, the center of growth of the production potential moved gradually from northeastern China to northwestern China. The net decrease in the production potential was 2.97 million tons, which occupied 0.29% of the national total actual production in 2010. Third, obvious differences in the production potential in response to farmland changes from 1990 to 2000 and from 2000 to 2010 were detected. The net increase in the production potential during the first decade was 10.11 million tons and mainly distributed in the Northeast China Plain and the arid and semi-arid regions of northern China. The net decrease in the production potential during the next decade was 13.08 million tons and primarily distributed in the middle and lower reaches of the Yangtze River region and the Huang-Huai-Hai Plain. In general, the reason for the increase in the production potential during the past two decades might be due to the reclamation of grasslands, woodlands and unused land, and the reason for the decrease in the production potential might be urbanization that occupied the farmland and Green for Grain Project, which returned farmland to forests and grasslands.  相似文献   

21世纪初中国土地利用变化的空间格局与驱动力   总被引：33，自引：15，他引：18  

刘纪远  张增祥  徐新良  匡文慧  周万村  张树文  李仁东  颜长珍  于东升  吴世新  江南 《地理学报(英文版)》2010,20(4):483-494

Land use and land cover change as the core of coupled human-environment systems has become a potential field of land change science (LCS) in the study of global environmental change. Based on remotely sensed data of land use change with a spatial resolution of 1 km × 1 km on national scale among every 5 years, this paper designed a new dynamic regionalization according to the comprehensive characteristics of land use change including regional differentiation, physical, economic, and macro-policy factors as well. Spatial pattern of land use change and its driving forces were investigated in China in the early 21st century. To sum up, land use change pattern of this period was characterized by rapid changes in the whole country. Over the agricultural zones, e.g., Huang-Huai-Hai Plain, the southeast coastal areas and Sichuan Basin, a great proportion of fine arable land were engrossed owing to considerable expansion of the built-up and residential areas, resulting in decrease of paddy land area in southern China. The development of oasis agriculture in Northwest China and the reclamation in Northeast China led to a slight increase in arable land area in northern China. Due to the "Grain for Green" policy, forest area was significantly increased in the middle and western developing regions, where the vegetation coverage was substantially enlarged, likewise. This paper argued the main driving forces as the implementation of the strategy on land use and regional development, such as policies of "Western Development", "Revitalization of Northeast", coupled with rapidly economic development during this period.  相似文献   

华北平原禹城市耕地变化与驱动力分析(英文)   总被引：2，自引：0，他引：2  

陈朝  吕昌河  范兰 《地理学报(英文版)》2012,22(3):563-573

Taking Yucheng, a typical agricultural county in Shandong Province as a case, this study applied Logistic regression models to spatially identify factors affecting farmland changes. Using two phases of high resolution imageries in 2001 and 2009, the study obtained the land use and farmland change data in 2001-2009. It was found that the farmland was reduced by 5.14% in the period, mainly due to the farmland conversion to forest land and built-up land, although part of forest land and unused land was converted to farmland. The results of Logistic regressions indicated that location, population growth and farmer income were main factors affecting the farmland conversion, while soil types and pro-curvature were main natural factors controlling the distribution of farmland changes. Regional differences and temporal-spatial variables of farmland changes affected fitting capability of the Logistic re-gression models. The ROC fitting test indicated that the Logistic regression models gave a good explanation of the regional land-use changes. Logistic regression analysis is a good tool to identify major factors affecting land use change by quantifying the contribution of each factor.  相似文献   

中国耕地和农村宅基地利用转型耦合特征与机制(英文)   总被引：16，自引：5，他引：11  

龙花楼  李婷婷 《地理学报(英文版)》2012,22(3):548-562

Land use transition refers to the changes in land use morphology (both dominant morphology and recessive morphology) of a certain region over a certain period of time driven by socio-economic change and innovation, and it usually corresponds to the transition of socio-economic development phase. In China, farmland and rural housing land are the two major sources of land use transition. This paper analyzes the spatio-temporal coupling characteristics of farmland and rural housing land transition in China, using high-resolution Landsat TM (Thematic Mapper) data in 2000 and 2008, and the data from the Ministry of Land and Resources of China. The outcomes indicated that: (1) during 2000-2008, the cor-relation coefficient of farmland vs. rural housing land change is -0.921, and it shows that the change pattern of farmland and rural housing land is uncoordinated; (2) the result of Spear-man rank correlation analysis shows that rural housing land change has played a major role in the mutual transformation of farmland and rural housing land; and (3) it shows a high-degree spatial coupling between farmland and rural housing land change in southeast China during 2000-2008. In general, farmland and rural housing land transition in China is driven by socio-economic, bio-physical and managerial three-dimensional driving factors through the interactions among rural population, farmland and rural housing land. However, the spatio-temporal coupling phenomenon and mechanism of farmland and rural housing land transition in China are largely due to the "dual-track" structure of rural-urban develop-ment.  相似文献   

陕甘宁地区植被恢复对气候变化和人类活动的响应(英文)   总被引：5，自引：2，他引：3  

李双双  延军平  刘新颜  万佳 《地理学报(英文版)》2013,23(1):98-112

The "Grain for Green Project" initiated by the governments since 1999 were the dominant contributors to the vegetation restoration in the agro-pastoral transitional zone of northern China. Climate change and human activities are responsible for the improvement and degradation to a certain degree. In order to monitor the vegetation variations and clarify the causes of rehabilitation in the Shaanxi-Gansu-Ningxia Region, this paper, based on the MODIS-NDVI and climate data during the period of 2000-2009, analyzes the main charac-teristics, spatial-temporal distribution and reasons of vegetation restoration, using methods of linear regression, the Hurst Exponent, standard deviation and other methods. Results are shown as follows. (1) From 2000 to 2009, the NDVI of the study area was improved progres-sively, with a linear tendency being 0.032/10a, faster than the growth of the Three-North Shelter Forest Program (0.007/10a) from 1982 to 2006. (2) The vegetation restoration is characterized by two fast-growing periods, with an "S-shaped" increasing curve. (3) The largest proportion of the contribution to vegetation restoration was observed in the slightly improved area, followed by the moderate and the significantly improved area; the degraded area is distributed sporadically over southern part of Ningxia Hui Autonomous Region as well as eastern Dingbian of Shaanxi province, Huanxian and Zhengyuan of Gansu province. (4) Climate change and human activities are two driving forces in vegetation restoration; more-over anthropogenic factors such as "Grain for Green Project" were the main causes leading to an increasing trend of NDVI on local scale. However, its influencing mechanism remains to be further investigated. (5) The Hurst Exponent of NDVI time series shows that the vegetation restoration was sustainable. It is expected that improvement in vegetation cover will expand to the most parts of the region.  相似文献   

Impact of the Grain-for-Green Programme and climate change on the soil erosion decline in the Yangtze River,China     

LI Boyan  WANG Yunchen 《地理学报(英文版)》2024,(3):527-542

The area of land that is affected by soil erosion in the Yangtze River has been reduced by 146,000 km²(accounting for 27% of the entire Yangtze River) since 2000. However, the contributions of different tributaries to this soil erosion decline and the underlying causes have not been determined. Here we quantify the soil erosion decline in the Yangtze River and the impacts of the Grain-for-Green Programme(GFGP) and climate change using the RUSLE model and statistical methods. The resul...  相似文献   

基于地理探测器的喀斯特不同地貌形态类型区土壤侵蚀定量归因（英文）     

《地理学报(英文版)》2019,(2)

The formation mechanism and influencing factors identification of soil erosion are the core and frontier issues of current research. However, studies on the multi-factor synthesis are still relatively lacked. In this study, the simulation of soil erosion and its quantitative attribution analysis have been conducted in different geomorphological types in a typical karst basin based on the RUSLE model and the geodetector method. The influencing factors, such as land use type, slope, rainfall, elevation, lithology and vegetation cover, have been taken into consideration. Results show that the strength of association between the six influencing factors and soil erosion was notably different in diverse geomorphological types. Land use type and slope were the dominant factors of soil erosion in the Sancha River Basin, especially for land use type whose power of determinant(q value) for soil erosion was much higher than other factors. The q value of slope declined with the increase of relief in mountainous areas, namely it was ranked as follows: middle elevation hill small relief mountain middle relief mountain. Multi-factors interactions were proven to significantly strengthen soil erosion, particularly for the combination of land use type with slope, which can explain 70% of soil erosion distribution. It can be found that soil erosion in the same land use type with different slopes(such as dry land with slopes of 5° and above 25°) or in the diverse land use types with the same slope(such as dry land and forest with a slope of 5°), varied much. These indicate that prohibiting steep slope cultivation and Grain for Green Project are reasonable measures to control soil erosion in karst areas. Based on statistics of soil erosion difference between diverse stratifications of each influencing factor, results of risk detector suggest that the amount of stratification combinations with significant difference accounted for 55% at least in small relief mountain and middle relief mountainous areas. Therefore, the spatial heterogeneity of soil erosion and its influencing factors in different geomorphological types should be investigated to control karst soil loss more effectively.  相似文献   

陕北地区退耕还林还草工程土壤保护效应的时空特征   总被引：3，自引：0，他引：3  

刘文超  刘纪远  匡文慧 《地理学报》2019,74(9):1835-1852

以中国退耕还林生态工程重点区域陕北地区作为研究区,基于耕地遥感监测数据集,分析了陕北地区2000-2013年耕地的时空变化特征;基于梯田空间分布,对RUSLE模型进行改进,模拟生成陕北地区土壤侵蚀模数栅格数据并进行精度验证;最后结合耕地变化数据集对陕北地区退耕还林（草）地及未退耕地的土壤侵蚀变化特征进行对比分析,以明确工程对全区土壤侵蚀变化的影响。结果表明,2000-2010年,陕北退耕农田内部侵蚀模数减少了22.70 t/hm ²,是退耕农田区2000年土壤侵蚀模数的47.08%。同期,陕北地区未退耕农田侵蚀模数减少了10.99 t/hm ²,占未退耕农田区域2000年土壤侵蚀模数的28.60%。从陕北全区的角度看,各种土地利用类型2000-2010年土壤侵蚀模数平均减少了14.51 t/hm ²,占2000年全区土壤侵蚀模数的41.87%。由此可见,退耕还林还草工程可以有效减少土壤侵蚀模数,达到土壤保护的作用。其中,由耕地转为林草所导致的侵蚀减少最为显著,对土壤保护的贡献作用最大。但是,2010年以后（2010-2013年）为退耕还林还草巩固时期,因此该阶段陕北地区土壤侵蚀模数和土壤侵蚀量变化较前10年显著降低。  相似文献   

中国北方农牧交错带风水蚀复合区的粮食与退耕还林(草)问题   总被引：2，自引：2，他引：0  

周立华  马永欢  马绍休 《中国沙漠》2007,27(4):552-557

中国北方农牧交错带风水蚀复合区是一个非常特殊的生态脆弱区,通过对该类型区60个典型县域的实地考察和统计资料分析表明：①该类型区的人均粮食产量自给有余,但粮食单产较低,较高的人均粮食产量是以扩大耕地面积,牺牲生态为代价的,今后粮食增产的主要潜力重点应放在提高水浇地单产上。②从区域和国家生态安全角度考虑,该类型区不适宜大规模开垦耕地,而应在粮食自给的基础上逐渐转变为以牧为主的发展方向,退耕还林(草)正是实现这一重要转变的最有效途径和措施。③农户调查结果表明,退耕对农户粮食产量和家庭经济收入的影响不大,大部分农户能够自觉接受退耕还林(草)政策,但目前正处于相持阶段,仍需要国家给予适当经济补偿。因此,该类型区的退耕还林(草)工程不但不能压缩,而且应该进一步扩大规模,加大投资力度。  相似文献   

基于遥感的中国陕北地区近20年耕地变化及其对农田生产力影响的定量评估     

刘文超  刘纪远  颜长珍  秦元伟  闫慧敏 《资源与生态学报(英文版)》2014,5(3):272-279

本文以中国退耕还林生态工程重点区域陕北地区作为研究区,对比其前后两个10年的耕地资源空间分布格局,并进一步分析耕地变化对农田生产力的影响。论文基于中高分辨率卫星遥感数据,经人机交互目视解译并结合实地验证,生成陕北地区1990、2000和2010年耕地现状以及前后两个10年耕地变化时空监测数据集。进而运用光能利用率遥感模型,结合中分辨率、长时间序列卫星遥感数据估算陕北地区农田净初级生产力,分析耕地变化对农田生产力的影响。结果表明,陕北地区耕地面积及其生产力在研究期前10年小幅增长,后10年明显减少。耕地增加的主要原因是为满足当地人口的粮食需求以及弥补城市建设对耕地的占用,大面积草地和未利用地被开垦。耕地减少的最主要原因是生态退耕,城市化也是耕地减少的原因之一。总体而言,20年来陕北地区耕地资源总面积净减少42.56%;受耕地面积变化的影响,同期农田净初级生产力下降了41.90%。研究对于评估陕北地区耕地安全和粮食安全,指导区域土地利用科学规划具有重要意义。  相似文献   

1990-2010年中国耕地变化对粮食生产潜力的影响   总被引：17，自引：0，他引：17  

刘洛  徐新良  刘纪远  陈曦  宁佳 《地理学报》2014,69(12):1767-1778

1990年以来,在国家生态环境保护工程实施、经济快速增长等因素的影响下,中国耕地数量与空间格局发生了巨大变化,对粮食生产潜力造成了巨大影响。本文采用GAEZ模型,结合中国气象、地形、土壤等因素,定量分析了中国耕地粮食生产潜力空间特征以及1990-2010年中国耕地变化对粮食生产潜力的影响。主要结论如下：① 2010年全国耕地粮食生产潜力总量为10.55亿t,全国耕地平均粮食生产潜力为7614 kg/hm²。中国耕地粮食生产潜力存在显著的空间差异,总体表现为东部高而西北部较低的趋势,并且高值区主要分布在长江中下游地区和华南区。② 1990-2010年的20年间,中国耕地粮食生产潜力变化表现出明显的时空差异,总体呈现南减北增、总量减少的基本特征。新增耕地粮食生产潜力的重心逐步由东北向西北转移。耕地粮食生产潜力总量净减少297万t,占2010年全国实际粮食总产量的0.29%。③ 在1990-2000年与2000-2010年两个时期,耕地变化对耕地粮食生产潜力影响差异明显。前10年,耕地粮食生产潜力总量净增加1011万t,主要集中在东北平原区和北方干旱半干旱区;后10年,耕地粮食生产潜力总量净减少1308万t,主要集中在长江中下游地区和黄淮海平原区。从总体看,近20年来耕地粮食生产潜力总量增加主要是由林、草地和未利用土地开垦所导致,而耕地粮食生产潜力总量减少主要是由城市扩展和退耕还林还草所导致。  相似文献   

The effect of environmental factors on spatial variability in land use change in the high-sediment region of China’s Loess Plateau     

LUO Ya  YANG Shengtian  ZHAO Changsen  LIU Xiaoyan  LIU Changming  WU Linna  ZHAO Haigen  ZHANG Yichi 《地理学报》2014,24(5):802-814

In areas with topographic heterogeneity, land use change is spatially variable and influenced by climate, soil properties, and topography. To better understand this variability in the high-sediment region of the Loess Plateau in which soil loss is most severe and sediment diameter is larger than in other regions of the plateau, this study builds some indicators to identify the characteristics of land use change and then analyze the spatial variability as it is affected by climate, soil property, and topography. We build two indicators, a land use change intensity index and a vegetation change index, to characterize the intensity of land use change, and the degree of vegetation restoration, respectively. Based on a subsection mean method, the two indicators are then used to assess the spatial variability of land use change affected by climatic, edaphic, and topographic elements. The results indicate that: 1) Land use changed significantly in the period 1998-2010. The total area experiencing land use change was 42,302 km2, accounting for 22.57% of the study area. High-coverage grassland, other woodland, and forest increased significantly, while low-coverage grassland and farmland decreased in 2010 compared with 1998. 2) Land use change occurred primarily west of the Yellow River, between 35 and 38 degrees north latitude. The four transformation types, including (a) low-coverage grassland to medium-coverage grassland, (b) medium-coverage grassland to high-coverage grassland, (c) farmland to other woodland, and (d) farmland to medium-coverage grassland, were the primary types of land use change, together constituting 60% of the area experiencing land use change. 3) The spatial variability of land use change was significantly affected by properties of dryness/wetness, soil conditions and slope gradient. In general, land use changed dramatically in semi-arid regions, remained relatively stable in arid regions, changed significantly in clay-rich soil, remained relatively stable in clay-poor soil, changed dramatically in steeper slopes, and remained relatively stable in tablelands and low-lying regions. The increase in vegetation coincided with increasing changes in land use for each physical element. These findings allow for an evaluation of the effect of the Grain to Green Program, and are applicable to the design of soil and water conservation projects on the Loess Plateau of China.  相似文献   

Impact of farmland changes on production potential in China during 1990-2010   总被引：1，自引：0，他引：1  

LIU Luo  XU Xinliang  LIU Jiyuan  CHEN Xi  NING Jia 《地理学报》2015,25(1):19-34

The quantity and spatial pattern of farmland has changed in China, which has led to a major change in the production potential under the influence of the national project of ecological environmental protection and rapid economic growth during 1990-2010. In this study, the production potential in China was calculated based on meteorological, terrain elevation, soil and land-use data from 1990, 2000 and 2010 using the Global Agro-ecological Zones model. Then, changes in the production potential in response to farmland changes from 1990 to 2010 were subsequently analyzed. The main conclusions were the following. First, the total production potential was 1.055 billion tons in China in 2010. Moreover, the average production potential was 7614 kg/ha and showed tremendous heterogeneity in spatial pattern. Total production in eastern China was high, whereas that in northwestern China was low. The regions with high per unit production potential were mainly distributed over southern China and the middle and lower reaches of the Yangtze River. Second, the obvious spatiotemporal heterogeneity in farmland changes from 1990 to 2010 had a significant influence on the production potential in China. The total production potential decreased in southern China and increased in northern China. Furthermore, the center of growth of the production potential moved gradually from northeastern China to northwestern China. The net decrease in the production potential was 2.97 million tons, which occupied 0.29% of the national total actual production in 2010. Third, obvious differences in the production potential in response to farmland changes from 1990 to 2000 and from 2000 to 2010 were detected. The net increase in the production potential during the first decade was 10.11 million tons and mainly distributed in the Northeast China Plain and the arid and semi-arid regions of northern China. The net decrease in the production potential during the next decade was 13.08 million tons and primarily distributed in the middle and lower reaches of the Yangtze River region and the Huang-Huai-Hai Plain. In general, the reason for the increase in the production potential during the past two decades might be due to the reclamation of grasslands, woodlands and unused land, and the reason for the decrease in the production potential might be urbanization that occupied the farmland and Green for Grain Project, which returned farmland to forests and grasslands.  相似文献   

中国北方农牧交错带土壤风蚀时空分布   总被引：2，自引：3，他引：2  

王旭洋  郭中领  常春平  王仁德  李继峰  李庆  秦丽娟 《中国沙漠》2020,40(1):12-22

土壤风蚀是干旱、半干旱地区土壤退化的主要过程，定量评价土壤风蚀是分析土壤退化的重要手段。中国北方农牧交错带是土壤风蚀的典型治理区。采用张春来风蚀预报经验模型，以半月为步长，计算中国北方农牧交错带2000-2012年的土壤风蚀模数。结果表明：中国北方农牧交错带的土壤风蚀状况整体有好转；沙地的土壤风蚀最严重，农田次之，草地的土壤风蚀最低；土地利用方式、风速和植被盖度均对土壤风蚀有一定的影响。  相似文献   

河北坝上农田、退耕地和天然草地土壤的可风蚀性   总被引：3，自引：2，他引：1  

张志栋  常春平  郭中领  王仁德  邢春燕 《中国沙漠》2018,38(1):85-91

对河北坝上农田、退耕地和天然草地土壤干团聚体稳定性（DASt）、土壤可蚀度（EF）和理化性质进行分析,讨论了这3种土地利用类型土壤风蚀可蚀性的差异及其与土壤理化性质的关系。结果表明：农田和天然草地EF与DASt值差异性显著（P<0.05）,天然草地和退耕地、退耕地和农田差异性不显著,对于EF和DASt,天然草地 > 退耕地> 农田;对于平均粒径,农田≈退耕地>天然草地;对于土壤机械组成黏粒与粉粒含量,天然草地 > 退耕地 > 农田;对于砾石含量,农田 > 退耕地 > 天然草地;对于土壤有机质和全氮含量,天然草地 > 退耕地 > 农田。农田、退耕地、天然草地的DASt、EF系数与砾石含量、平均粒径有着显著相关性,有机质、全氮含量和DASt在天然草地上极显著负相关;EF与有机质、全氮含量在3种地类显著负相关。坝上地区草地和退耕地土壤肥力较高,但表层土壤具有很高的风蚀潜力,因此要限制开垦草地,在必要的地区继续退耕还林还草,提高地表植被的覆盖度,防风固沙,提高土壤肥力,减少土壤风蚀。  相似文献   

Net Primary Productivity Increased on the Loess Plateau Following Implementation of the Grain to Green Program     

LIU Fang  YAN Huimin  GU Fengxue  NIU Zhongen  HUANG Mei 《资源与生态学报(英文版)》2017,8(4):413-421

The spatio-temporal characteristics of net primary productivity (NPP) since implementation of the Grain to Green Program (GTGP) are important for understanding ecological restoration of the Loess Plateau in China. Here, we conduct spatio-temporal analysis of NPP using MODIS datasets (500 m, 8-day intervals) and VPM (Vegetation Photosynthesis Model) from 2000-2015. We found that NPP on the Loess Plateau increased significantly from 2000 to 2015 (p<0.05). Significant increases in NPP were observed in core areas of the GTGP, including northern Shaanxi and Lüliang Mountain in Shanxi. NPP in alluvial plains decreased due to urban expansion into cropland. Significant increases in NPP from 2006-2010 were located north of the area of change in 2000-2005. NPP increased across three vegetation types and four slope gradients. In hilly-gully regions prone to soil erosion, such as central and southeastern parts of the Loess Plateau, obvious vegetation restoration was detected.  相似文献